The pipette chosen is crucial for clinical testing as the precision mattered in the data collected correlates to the outcomes of the patient which is more often than not life-changing. This article goes about listing the step-by-step importance of a high-quality pipette alongside the types of pipettes available and how all of this can further qualitative and quantitative testings.
Any test done within a laboratory requires a certain degree of accuracy under certain parameters, it is a grave error to assume that tests done within a laboratory don’t have an inherent risk to them. Requiring ultimate reliability, the pipette is a common instrument found in most research, diagnostic, and clinical settings, where it needs to be able to transfer a specified volume to maintain effectiveness and be calibrated accurately allowing the pipette to function as intended. Using low quality materials and not calibrating the pipette can lead to disastrous consequences to the safety of the patients and potential life saving test results.
The three major types of pipettes include air displacement, positive displacement and electronic pipettes amongst a plethora of more. Do remember that each of these pipettes has specific advantages that are better suited for applications, for example a positive displacement pipette is used for precise results when working with viscous liquids. Understanding the specification of your laboratory beforehand is key when reaching choosing the pipette for your laboratory.
Apart from picking the right variety of pipette, maintenance and calibration also improves dependability. Regular maintenance above all means allowing proper time for assessment of the pipettes for damage and re-calibration when needed. This not only increases the average lifetime use of the equipment but measures taken by them are accurate with time. The acquisition of appropriate pipettes together with their proper maintenance would assist in clinics avoiding certain costly errors and repeated tests.
Furthermore, technology has improved the design of pipettes thereby making the work of laboratories easier. For example, electronic pipettes are more accurate and easier to use because their operation has programmable dispensing which minimizes operator errors. Clinics are progressively shifting towards these advanced technologies and so the demand for high quality pipettes is bound to increase compelling laboratories to seek for newer advancements in pipetting technology.
On a final note, pipettes fully deserve to be considered as a very important factor when speaking about reliable clinical testing. Understanding their relevance, choosing the type that is the most appropriate, and taking good care of them leads to clinics increasing the accuracy of their tests and subsequently providing better services to patients. With the growth of the space of the clinical testing, the peripherals associated with the act of pipetting will also change, and hence it will be indispensable for the laboratories to move and buy the reliable means of the future.